SICK TDC-B100, TDC-B200, TDC-M100 Operating Instructions Manual

TELEMATIC DATA COLLECTOR

Gateway systems

OPERATING INSTRUCTIONS

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Subject to change without notice

Product described

Product name: Telematic Data Collector

Document identification

Title: Telematic Data Collector operating instructions

Status: 2017-11-27

Manufacturer

SICK AG
Erwin-Sick-Str. 1 · 79183 Waldkirch · Germany

Trademarks

IBM is a trademark of the International Business Machine Corporation.

only used here for identification purposes.

Original documents

The German version 8021803 of this document is an original document of

In case of doubt, contact SICK AG or your local dealer.

Legal notes

Subject to change without notice

© SICK AG. All rights reserved

Part number: 8021804

MS-DOS is a trademark of the Microsoft Corporation.
Windows is a trademark of the Microsoft Corporation.
Other product names in this document may also be trademarks and are

SICK AG.
SICK AG does not assume liability for the correctness of a non-authorized
translation.

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Contents

ABOUT THESE OPERATING INSTRUCTIONS 1

1 About these operating instructions ................................................................................ 6

1.1 Described software versions ............................................................................... 6

1.2 Purpose of this document .................................................................................... 6

1.3 Target group ......................................................................................................... 6

1.4 Information depth ................................................................................................ 7

1.5 Abbreviations used............................................................................................... 7

1.6 Symbols used ....................................................................................................... 8

2 Safety ................................................................................................................................. 9

2.1 Qualified personnel .............................................................................................. 9

2.2 Applications of the system ................................................................................... 9

2.3 Intended use ......................................................................................................... 9

2.4 General safety notes and protective measures .............................................. 10

2.4.1 Safety notes and symbols ................................................................. 10

2.4.2 General safety notes .......................................................................... 11

2.4.3 Potential sources of danger .............................................................. 12

2.5 Protecting the environment .............................................................................. 13

3 System description ........................................................................................................ 14

3.1 Scope of delivery ............................................................................................... 14

3.2 System components.......................................................................................... 18

3.2.1 TDC devices – collecting and transmitting sensor data .................. 18

3.2.1.1 The TDC device as a receiver ........................................... 18

3.2.1.2 The TDC device as a sender ............................................. 19

3.2.2 Processing and visualizing sensor data on the SICK online

portal ................................................................................................... 21

3.2.2.1 Components of the SICK online portal ............................. 21

3.2.2.2 Multi-client capability and access rights .......................... 21

3.2.2.3 Visualization and monitoring ............................................ 22

3.3 Interfaces for integration into customer applications ..................................... 23

3.4 Status indicators for the TDC devices .............................................................. 25

3.4.1 TDC-B100/TDC-B200 ........................................................................ 25

3.4.2 TDC-M100 .......................................................................................... 26

4 Mounting ........................................................................................................................ 27

4.1 Inserting the SIM card (not EU countries or for MQTT operation) .................. 27

4.2 Mounting the TDC-B100/200 .......................................................................... 30

4.3 Mounting the TDC-M100 .................................................................................. 30

5 Electrical installation .................................................................................................... 31

5.1 Connecting TDC devices ................................................................................... 31

5.1.1 Connectors on the TDC devices ........................................................ 31

5.1.2 Connecting the TDC device to the voltage supply ............................ 32

5.1.3 Connecting the TDC device to the ignition system ........................... 34

5.1.4 Connecting the TDC device to SICK sensors .................................... 35

5.1.5 Connecting fuel level sensors ........................................................... 38

5.2 Screwing on the GSM antenna ......................................................................... 39

5.3 Connecting the GPS antenna ........................................................................... 39

6 Commissioning .............................................................................................................. 40

6.1 Launching the TDC devices .............................................................................. 40

6.2 Preparing the configuration PC ........................................................................ 40

1 ABOUT THESE OPERATING INSTRUCTIONS

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6.3 General notes .....................................................................................................40

6.3.1 Establishing a connection with the configuration PC .......................41

6.3.2 Installing TDC Configurator ................................................................42

6.4 Connecting to the TDC device ...........................................................................43

6.4.1 Launching the configuration software ...............................................43

6.4.2 Establishing a connection to the TDC device ....................................44

6.5 Adjusting the standard parameters and configuring the interfaces ...............46

6.5.1 General settings ..................................................................................46

6.5.1.1 General ...............................................................................46

6.5.1.2 GPRS connection data .......................................................48

6.5.1.3 Tracking ..............................................................................51

6.5.2 Configuring the interfaces ..................................................................53

6.5.2.1 What are telemetry elements? ..........................................53

6.5.2.2 Configuring a telemetry element for a digital signal ........55

6.5.2.3 Copying a telemetry element.............................................60

6.5.2.4 Configuring a telemetry element for a motor signal ........61

6.5.2.5 Configuring a telemetry element for a fuel level sensor ..62

6.5.3 Configuring the internal sensors ........................................................63

6.5.4 Transferring the configuration to the TDC device .............................64

6.5.5 Saving the configuration on the PC ...................................................64

6.5.6 Recording ............................................................................................64

6.5.7 Displaying system information ...........................................................65

7 Monitoring .......................................................................................................................66

7.1 Setting up a customer account for the SICK online portal ..............................66

7.1.1 Applying for a customer account .......................................................66

7.1.2 Notification about your customer account ........................................70

7.2 Configuring the TDC Management System.......................................................71

7.2.1 Logging in to the TDC Management System .....................................71

7.2.2 Registering additional TDC devices ...................................................72

7.2.3 Configuring a dashboard ....................................................................73

7.2.3.1 Creating a dashboard ........................................................73

7.2.3.2 Defining the structure for displaying telemetry

elements on the dashboard ..............................................74

7.2.4 Visualizing key figures using widgets on the dashboard ..................76

7.2.4.1 Adding key figures for sensor data ...................................76

7.2.4.2 Adding key figures for alarms ............................................78

7.2.4.3 Adding diagrams ................................................................79

7.2.5 Analyzing sensor data in detail ..........................................................81

7.2.6 Administering the management platform .........................................82

7.3 Working with fleet management .......................................................................83

7.3.1 Position display ...................................................................................83

7.3.2 Displaying the vehicle list with detailed information ........................84

7.3.3 Displaying current vehicle fuel levels ................................................84

7.3.4 Accessing information about a specific vehicle ................................85

7.3.5 Accessing fuel consumption information ..........................................88

7.3.6 Analyzing the kilometers covered ......................................................90

7.4 Transferring data to a customer application using an API interface ..............92

7.4.1 Input parameter ..................................................................................92

7.4.2 Example for API call ............................................................................93

7.5 Accessing data from the TDC device via the MQTT interface ..........................94

7.5.1 Description of the MQTT interface structure .....................................94

7.5.2 Description of the MQTT protocol ......................................................95

ABOUT THESE OPERATING INSTRUCTIONS 1

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8 Maintenance .................................................................................................................. 97

8.1 Maintenance during operation ......................................................................... 97

8.1.1 Visual inspection ................................................................................ 97

8.1.2 Cleaning .............................................................................................. 98

8.2 Replacing components ................................................................................... 100

8.2.1 Basic procedure ............................................................................... 100

8.2.2 Replacing the GPS antenna ............................................................ 100

8.2.3 Replacing the TDC device overcurrent protection device .............. 101

8.2.4 Replacing the TDC device ................................................................ 102

9 Annex ............................................................................................................................ 103

9.1 Technical data ................................................................................................. 103

9.1.1 TDC-B100 data sheet ...................................................................... 103

9.1.2 TDC-B200 data sheet ...................................................................... 105

9.1.3 TDC-M100 data sheet ..................................................................... 108

9.2 Dimensional drawings ..................................................................................... 110

9.2.1 TDC-B100 dimensional drawing...................................................... 110

9.2.2 TDC-B200 dimensional drawing...................................................... 110

9.2.3 TDC-M100 dimensional drawing ..................................................... 110

10 Figures and tables ....................................................................................................... 111

10.1 List of tables .................................................................................................... 111

10.2 List of figures ................................................................................................... 112

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Software

Function

Status

TDC Configurator

Configuring the TDC devices

≥ V 1.0-0-0

Target group

Tasks

Entity operating the customer system

System user

Operating the system:
 The system user reports faults to the system manager.

System manager

Mounting, electrical installation, maintenance, and replacement

 The system manager submits support requests to SICK.

SICK

SICK service technician

Commissioning, configuration, and support.

1 About these operating instructions

Please read this chapter carefully before you begin working with this documentation and
the Telematic Data Collector (TDC for short) gateway system.

1.1 Described software versions

Tab. 1: Software versions

1.2 Purpose of this document

These operating instructions are designed to give technical personnel instructions on
the safe mounting, configuration, electrical installation, commissioning, operation, and
maintenance of the gateway system as well as on the connection and configuration of
the sensors.

These operating instructions do not provide information on operating vehicles or
machines into which the individual devices of the gateway system have been or are going
to be integrated. Additional information on this can be found in the customer
documentation.

1.3 Target group

These operating instructions are intended for people integrating the devices of the
gateway system into a vehicle or machine and performing initial commissioning,
operation, and maintenance.

They are also intended for the planners and integrators of the customer system, as well
as the operating entity with responsibility for it.

Tab. 2: Target group

of system components:

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1.4 Information depth

ABOUT THESE OPERATING INSTRUCTIONS 1

Note

These operating instructions contain information about the following topics related to the
profiling system:

• System description

• Mounting

• Electrical installation

• Commissioning

• Operation

• Maintenance and care

• Fault diagnosis and troubleshooting

• Technical data and dimensional drawings

When planning and using the gateway system, technical skills are also required that are
not covered by this document.

The official and legal regulations for operating the system must always be complied with.

Further information about the device components used in the gateway system can be
found in the respective operating instructions.

1.5 Abbreviations used

API

APN

CAN bus

GSM

GPRS

GPS

MQTT

SIM

TDC

Application programming interface

Access point name = access point of the network operator in the GPRS data network

Controller area network = serial bus system

Global system for mobile communications = technical wireless standard for digital
wireless telephony

General packet radio service = the name given to the packet-based service for
transmitting data within GSM networks

Global positioning system = global satellite navigation system for position determination

Message queue telemetry transport = open messaging protocol for transmitting telemetry
data between devices in the form of messages

Subscriber identity module = chip card for cell phones

Telematic Data Collector = system used to collect and transmit telemetry data

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

1.6 Symbols used

Recommendation

Note

1. / 2. ...

Step by step

Action

Recommendations are designed to assist you in the decision-making process with respect
to the use of a certain function or technical measure.

Notes provide information about the features of a device, application tips, or other useful
information.

Instructions that must be carried out in the described order are referred to as step-by-step
instructions and are indicated by numbered lists. Carefully read and follow the
instructions for taking action.

Instructions for taking action are indicated by an arrow. Carefully read and follow the
instructions for taking action.

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2 Safety

This chapter concerns your own safety and the safety of the system operator.

Please read this chapter carefully before you begin working with the gateway system.

▸

2.1 Qualified personnel

The gateway system must only be commissioned and maintained by properly qualified
personnel.

A qualified person

• has sufficient skills in the field of the respective equipment based on their technical

training and experience and

• has been instructed by the manufacturer in system operation and all applicable safety

guidelines and

• is familiar with all relevant country-specific occupational safety regulations, work safety
regulations, guidelines, and generally accepted technical rules and standards
(e.g., DIN standards, VDE regulations, country-specific rules) to such an extent that
they are able to evaluate the safe condition of the power-driven machinery, and

• has access to and has read the operating instructions.

2.2 Applications of the system

SAFETY 2

The Telematic Data Collector (TDC) gateway system is a system used to receive and
transmit telemetry data on a cloud server. It is, for example, ideal for sensor-controlled
monitoring tasks, vehicle tracking, working hours management, and access control as
well as for remote measurement.

The gateway system uses one or more TDC devices to collect data. The TDC devices
feature all of the standard interfaces that are required to integrate sensors and other
devices.

The sensor data received is transmitted to the cloud via the mobile network through either
the SICK online portal or a customer server.

The SICK online portal is a platform that can be used to visualize sensor data on a web­based user interface, allowing for convenient monitoring.

The TDC gateway system also supports the integration of recorded sensor data into all
leading business applications. Integration is an option when using either the SICK online
portal or a cloud-based customer server via an API included as part of the scope of
delivery or via the MQTT protocol in a defined topic structure.

2.3 Intended use

The gateway system may only be used by qualified personnel in the environment in which
it was mounted and initially commissioned by qualified personnel in accordance with
these operating instructions.

Note

If used in any other way or if alterations are made to the gateway system – including
in the context of mounting and installation – this will render void any warranty claims
directed to SICK AG.

2 SAFETY

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HAZARD

WARNING

WARNING

NOTE

2.4 General safety notes and protective measures

2.4.1 Safety notes and symbols

The following safety and hazard notes concern your own safety, the safety of third parties,
and the safety of the devices. You must therefore observe these symbols at all times.

Denotes an immediate hazard that may result in severe to fatal injuries.

The symbol shown on the left-hand side of the note refers to the type of hazard in
question (the example here shows a risk of injury resulting from electrical current).

Denotes a potentially dangerous situation that may result in severe to fatal injuries.

The symbol shown on the left-hand side of the note refers to the type of hazard in
question (the example here shows a risk of damage to the eye by laser beams).

Denotes a potentially dangerous situation that may result in minor personal injury or
possible material damage.

Denotes a potential risk of damage or functional impairment of the device or the devices
connected to it.

This symbol refers to supplementary technical documentation.

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2.4.2 General safety notes

WARNING

The gateway system has been designed such that it can be operated safely. Protective
devices reduce potential risks to the maximum possible extent. However, a certain level
of risk will always remain.

Awareness of potential sources of danger in the system will help you to work in a safer
manner and thus prevent accidents.

To avoid risks, please also observe the special warnings in each of the individual
chapters.

Safety notes

Observe the following to ensure the safe use of the gateway system as intended.

• The notes in these operating instructions (e.g., regarding use, mounting, or installation)
must be observed.

• All official and statutory regulations governing the operation of the gateway system
must be complied with.

• National and international legal specifications apply to the installation and use of the
system, to its commissioning, and to recurring technical inspections, in particular:

- Work safety regulations and safety rules

- Any other relevant safety provisions

• All checks must be carried out by qualified personnel or specially authorized and
commissioned personnel, and must be recorded and documented to ensure that they
can be reconstructed and retraced at any time.

• These operating instructions must be made available to the operator of the system
in which the components of the gateway system are used.

• The operator of the gateway system must be instructed by qualified personnel and
must read the operating instructions.

SAFETY 2

2 SAFETY

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HAZARD

WARNING

NOTE

WARNING

2.4.3 Potential sources of danger

Electrical current

Risk of injury and damage caused by electrical current

Improper handling of live devices may lead to severe personal injury or death by electric
shock.

Electrical installation and maintenance work must only be carried out by personnel

▸

authorized to do so.

The power supply must be disconnected when attaching and detaching electrical

▸

connections.

Select and implement wire cross-sections and their correct fuse protection in accordance

▸

with the applicable standards.

Do not touch any live parts.

▸

In the event of danger, immediately disconnect the device from the grid.

▸

Always use original fuses with the specified current rating.

▸

Report any damaged cables to the maintenance team without delay.

▸

Observe the up-to-date safety regulations when working on electrical systems.

▸

Commissioning/operation/maintenance

Risk resulting from incorrect commissioning and configuration

Do not commission until a thorough check has been performed by qualified personnel.

Before carrying out initial commissioning of the devices of the gateway system, you must
have the system checked and approved by qualified personnel.

Claims under the warranty rendered void

The housings of the devices must not be opened. The devices are sealed.

If the device is opened, any warranty claims against SICK AG will be void.

Risk resulting from faults

Cease operation if the cause of the malfunction has not been clearly identified.

Immediately deactivate the TDC device if you cannot clearly identify the fault and if you

▸

cannot safely remedy the problem.

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2.5 Protecting the environment

The components of the gateway system have been designed to minimize their impact on
the environment. They consume only little energy.

Always act in an environmentally responsible manner at work. For this reason, please note
the following information regarding disposal.

Disposal after final decommissioning

Always dispose of unusable or irreparable devices in accordance with the applicable

▸

waste disposal regulations specific to your country.

Remove the plastic parts and recycle the aluminum housing of the TDC device.

▸

Dispose of all electronic assemblies as hazardous waste. The electronic assemblies are

▸

easy to dismantle.

Note

SICK AG does not take back devices that are unusable or irreparable.

SAFETY 2

3 SYSTEM DESCRIPTION

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3 System description

This chapter describes the layout and operating principle of the gateway system, in
particular the interaction of the different components.

Note

3.1 Scope of delivery

Always read this chapter before you mount, install, and commission the components of
the gateway system.

Depending on the installation conditions and number of interfaces required, the gateway
system uses the TDC-B100, TDC-B200 or TDC-M100 device variants. The different TDC
devices are suitable for different installation conditions and numbers of interfaces.

Fig. 1: TDC gateway system device variants

All TDC devices come with a GSM antenna, installed overcurrent protection device, and
SIM card inserted for operation in EU countries.

The scope of delivery for TDC devices in the B series also includes a GPS antenna, a
voltage supply cable, and cables for connecting sensors. Additional cables can be ordered
as accessories.

Fig. 2: TDC gateway system scope of delivery

SYSTEM DESCRIPTION 3

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NOTE

Number

Part No.

Description

1 TDC gateway system consisting of:

n

6064656

 TDC-B100 with GSM antenna and installed overcurrent protection

TDC Configurator configuration software

n

6067023

 GPS antenna

n

6067024

 3-A back-up overcurrent protection device

n

6067018

 RS485 connecting cable (4-pin)

and/or

n

6064657

 TDC-B200 with GSM antenna and installed overcurrent protection

configuration software

n

6067023

 GPS antenna

n

6067024

 3-A back-up overcurrent protection device

n

6067019

 INPUT cable (6-pin)

A quick start guide is also included as part of the scope of delivery to provide assistance
at the initial commissioning stage. The quick start guide also includes a download link
for the operating instructions, system documentation, interface specifications, and TDC

Configurator configuration software.

Fig. 3: Quick start guide including download link for the documentation and configuration

Basic inspection for completeness and damage

It is recommended that you carefully check for and report transport damage of any kind
as soon as possible after receiving the system.

Also verify that the delivery includes all components listed on the delivery note.

▸
▸

software

Report any incomplete or damaged deliveries to Customer Service.

Always document the damage by taking photographs.

device

 SIM card inserted for operation in EU countries
 Quick start guide including a download link for the operating

instructions, system documentation, interface specifications, and

1 cable set consisting of:

 Cable for the voltage supply and connection of a peripheral device

to two digital inputs (6-pin)

device

 SIM card inserted for operation in EU countries
 Download link for the operating instructions, system

documentation, interface specifications, and TDC Configurator

1 cable set consisting of:

 Cable for the voltage supply and connection of a peripheral device

to two digital inputs (6-pin)

 RS485 connecting cable (4-pin)

3 SYSTEM DESCRIPTION

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Number

Part No.

Description

and/or

n

6065413

 TDC-M100 with GSM antenna and installed overcurrent protection

TDC Configurator configuration software

n

6067024

 3-A back-up overcurrent protection device

Part No.

Description

TDC-B100 / TDC-B200

6066259

Cable for connecting the TDC-B100 to a configuration PC, Micro-Fit USB

Drivers are included in the configuration software

TDC-M100

6066258

Cable for connecting the TDC-M100 to a configuration PC, Micro-Fit USB
Drivers are included in the configuration software

Tab. 3: TDC gateway system scope of delivery

Configuration cables (optional)

There is an optional configuration cable available for all device types that can be used to
connect the TDC device to a configuration PC. The label on the packaging also includes
the link with the access data for the documentation and configuration software.

device

 SIM card inserted for operation in EU countries
 Quick start guide including a download link for the operating

instructions, system documentation, interface specifications, and

Fig. 4: Configuration cables (optional)

(6-pin)

Tab. 4: Configuration cables (optional) – part numbers

SYSTEM DESCRIPTION 3

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Part No.

Description

TDC-B100

6067018

1 cable set consisting of:

(included in delivery)

6067022

1 cable set with 3 cables (UART/USB, CAN1, DIAG)

TDC-B200

1 cable set consisting of:

(included in delivery)

6066260

1 cable set with 9 cables (UART, CAN1, DIAG, RS-232, OUTPUTS,
1Wire, USB, CAN2, FULL RS-232)

Part No.

Description

6066264

LLS30160-700mm-RS232/485 fuel level sensor with mounting kits,
connecting cable, and quick start guide.

Part No.

Description

5337537

SIM card (for operation in EU countries)

6067024

MINI ATO overcurrent protection device, 32 V, 3 A, 0297003. L

5337536

EAD PST2100SMA RA GSM antenna, penta band

6067023

GPS antenna (only TDC-B100/TDC-B200)

Additional cables (optional)

Preconfigured cables can be obtained for connecting sensors and devices to TDC devices
in the B series.

 TDC PWR+2IN – 90 cm, Micro-Fit 4-pin, open ends
 TDC RS485 – 30 cm, Micro-Fit 4-pin, open ends

 TDC PWR+2IN – 90 cm, Micro-Fit 4-pin, open ends
 TDC RS485 – 30 cm, Micro-Fit 4-pin, open ends
 TDC INPUTS – 30 cm, Micro-Fit 6-pin, open ends

Tab. 5: Additional connecting cables (optional) – part numbers

Fuel level sensor for TDC-B200 (optional)

A fuel level sensor manufactured by Omnicomm is available as an optional accessory for
the TDC-B200 device.

Fig. 5: Fuel level sensor (optional)

Tab. 6: Fuel level sensor (optional) – part number

Spare parts

Tab. 7: Spare parts – part numbers

3 SYSTEM DESCRIPTION

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3.2 System components

3.2.1 TDC devices – collecting and transmitting sensor data

The gateway system uses TDC devices to receive and transmit sensor data.

• As a receiver, the TDC device collects data from connected sensors and devices.

• As a sender, the TDC device transmits the sensor data received to the cloud via the

mobile network.

3.2.1.1 The TDC device as a receiver

A TDC device will generally receive sensor data from a vehicle or a machine. For this to
happen, the sensors are connected to the TDC device via appropriate interfaces.

The TDC device also has built-in sensors that are used to detect the movement of the
vehicle. This movement data can be output along with GPS data (this only applies to TDC
devices of the B series). A GPS antenna is included in the scope of delivery for these
devices.

Fig. 6: The TDC device as a sensor data receiver

Which sensors and devices can be integrated?

The TDC device features all of the standard interfaces that are required to integrate
sensors and other devices. Digital, analog, and CAN bus-based signals can be processed.

The interfaces are configured via the TDC Configurator configuration software included in
the scope of delivery.

Fig. 7: TDC device interfaces for the integration of sensors

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• SICK sensors of the TiM series detect the presence of an object within a specified area
(detection). They are ideally suited for monitoring the area around a vehicle, for
instance. If an object is detected in the monitored area, the result is output via the
digital output.

• Capacitive level sensors (such as those from the company Omnicomm) are used for
the level measurement of fuels and oils. When using a capacitive measuring method,
an insulated measurement electrode forms an electric capacitor with the medium
surrounding it. As the level and in turn the capacitance decreases, the latter is analyzed
by electronics and communicated by an electrical signal.

• Capacitive proximity sensors, such as SICK sensors of the CM series, can detect all
kinds of materials beyond a surface. This allows a minimum level to be detected, for
example.

• A TDC device can also process signals from other devices or motors. Vehicle activities
can be traced upon connection to the ignition system.

3.2.1.2 The TDC device as a sender

When using the SICK online platform, the TDC device transmits the sensor data received
to the SICK cloud server in real time. This happens automatically via the mobile network
using the SIM card inserted into the TDC device.

If a cloud-based customer server is used instead of the SICK online portal, it is not
possible to transmit the sensor data directly. However, there is the option to access the
data on the customer server using the MQTT interface of the device in question.

The TDC device alarm management system can be configured and used to trigger a real­time alarm in the form of SMS messages via input signals.

SYSTEM DESCRIPTION 3

Fig. 8: The TDC device as a sensor data sender

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Permanent data transmission in online mode

The TDC device is connected to a voltage supply and permanently supplied with voltage.
It is also always connected to the mobile network via the SIM card. The GPRS access data
for the SICK online portal is shared with the device through the TDC Configurator
configuration software.

This means that the TDC device is always online, regardless of whether the vehicle or
machine into which the TDC is installed has been started up or not. Sensor data is
therefore always transmitted in real time – even when the motor is not running. Given an
appropriate connection to the TDC device, starting up a motor or machine would therefore
constitute a signal in itself, which could then be transmitted and analyzed.

Data storage in offline mode

If there is no mobile signal, the data received from the connected sensors is stored on the
internal device memory. No matter how many sensors are connected, sensor data can be
stored for up to one month.

Note

If the device is not connected to a voltage supply, it will not be possible to save sensor data.

The TDC device will be back online as soon as a connection to the mobile network is
reestablished, and at this point the sensor data that has been saved will be transmitted
automatically to the SICK online portal. When using an internal customer server, it will be
possible to access data again once the connection has been restored.

Fig. 9: Data storage on the TDC device in offline mode

If the connection to the mobile network is interrupted for longer than one month, the data
stored on the internal device memory will be overwritten in line with the FIFO (first in, first
out) principle. What this means is that the data that was stored first will be the first to be
overwritten.

This principle ensures that the data from the last four weeks is always available – even
when the connection to the mobile network is interrupted for a prolonged period of time.

Device logging

TDC device activity, such as when a voltage supply is connected or the mobile network is
accessed, is reported to the SICK online portal.

Using the notification management system, the SICK online portal can issue a message
in the event of a mains voltage failure or a failure of the mobile network (for further
information on this, please also refer to Chapter 3.2.2.3 Visualization and monitoring).

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3.2.2 Processing and visualizing sensor data on the SICK online portal

The SICK online portal is a standard cloud solution. It is the central platform used for
processing and visualizing the delivered sensor data.

3.2.2.1 Components of the SICK online portal

The cloud server receives and stores the sensor data transmitted by an individual TDC
device.

The data can be visualized in real time on a web-based user interface. Sensor data can be
accessed from any computer or mobile device by logging in to the portal site. All common
web browsers are supported.

Sensor data can then be transferred to a customer application using an API interface.

SYSTEM DESCRIPTION 3

Fig. 10: Components of the SICK online portal

3.2.2.2 Multi-client capability and access rights

The cloud solution has multi-client capability, which allows the SICK online portal to be
used by multiple clients on the same server, with each client only being able to view and
edit their own data.

The SICK online portal is accessed from a browser using the URL of the cloud server.
Users must log in using a user name and password.

At the client level, the SICK online portal also supports various user levels with
corresponding access rights as far as sensor data and program functions are concerned.

Fig. 11: Multi-client capability and access rights on the SICK online portal

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3.2.2.3 Visualization and monitoring

Viewing a graphical overview of the data on the SICK online portal allows for vehicle
activity, fuel levels, and even suspicious movements or potential collision hazards in the
vicinity of vehicles and machines to be monitored effectively.

Fig. 12: Visualization of sensor data and monitoring on the SICK online portal

Information is condensed in the form of key figures for the purposes of aiding the
decision-making process, controlling and monitoring measures, or running comparisons
within a company or across multiple companies.

Comprehensive reporting helps in the analysis and assessment of sensor data – even
over a prolonged period. Custom reports can be defined.

In addition to the alarm management system specific to the TDC device, the SICK online
portal also has its own notification system that issues messages in line with rules that
can be freely defined and displays them in the portal message center based on the user
and/or user group.

The automated notifications issued by the system can also be sent in e-mail or SMS
format via the integrated e-mail server for the SICK online portal.

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3.3 Interfaces for integration into customer applications

The system solution supports the integration of recorded sensor data into all leading
business applications (ERP, CRM OMD, BI, etc.).

There are two options available for integration, which is possible regardless of whether
the SICK online portal or a cloud-based customer server is used.

Transferring data from the SICK cloud via an API

If the SICK online portal is used to process and visualize the sensor data, the data can
be transferred directly from the SICK online portal to a customer application. The data is
transferred via a programming interface (API) included in the scope of delivery.

This programming interface grants access to the software logic of the SICK online portal,
allowing files and content to be processed further among different programs.

Communication with the API uses the REST standard protocol in XML data format.

SYSTEM DESCRIPTION 3

Note

Fig. 13: Transferring data from the SICK cloud to a customer application via an API

For further information on the methods used with the API, refer to Chapter 7.4

Transferring data to a customer application using an API interface.

Accessing data from the TDC device via MQTT

If a customer's own server is used instead of the SICK online portal, it is not possible to
transmit the sensor data directly from the TDC device to the server. Data can only be
accessed using the MQTT interface.

MQTT is a special publish-subscribe-based messaging protocol. Here topics are set up by
the user, which are then used by clients (in the role of a publisher) to prepare messages
and by other clients (in the role of a subscriber) to receive messages.

On the basis of this principle, communication takes place via a central hub known as the
MQTT message broker. Each message sent by a client includes a topic with the data.
Every MQTT client that wants to receive messages for the topic must subscribe to them
through the message broker.

Whenever there are new messages, interested clients will be notified by the broker,
ensuring efficient communication with the subscribers. However, the individual clients are
only familiar with the message broker and not the other subscribers.

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Within the system, the TDC device takes on the role of the publisher. It sends topics
with sensor data to the mobile network in a defined structure via the MQTT protocol.
The customer server subscribes to this data. Messages can be accessed and further
processed by this server using the defined topic structure.

Fig. 14: Accessing data from the TDC device via MQTT

Note

For more information on the topic structure of the MQTT interface, refer to Chapter 7.5

Accessing data from the TDC device via the MQTT interface.

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3.4 Status indicators for the TDC devices

LED

Color

Meaning

Red (permanent)

No valid GPS signal found or no GPS antenna connected.

Red (periodical)

GPS signal found.

Yellow (permanent)

Device not connected to the mobile network.

Yellow (periodical
with a pulse)

Device connecting to the mobile network.

Yellow (periodical
with two pulses)

Device connected to the mobile network.
OFF

Device switched off or booting.

Green (permanent)

Device switched on.

3.4.1 TDC-B100/TDC-B200

The TDC-B100 and TDC-B200 devices each have three status LEDs.

Fig. 15: TDC-B100/TDC-B200 status indicators

The LEDs have the following meanings:

SYSTEM DESCRIPTION 3

GPS

COM

PWR

Tab. 8: TDC-B100 / TDC-B200 status indicators

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LED

Color

Meaning

Yellow (permanent)

Device not connected to the mobile network.

Yellow (periodical
with a pulse)

Device connecting to the mobile network.

Yellow (periodical
with two pulses)

Device connected to the mobile network.
Off

Device switched off or booting.

Red (permanent)

Counter has no reference.

Red/green
(alternating)

Counter reference OK.

3.4.2 TDC-M100

The TDC-M100 device has a 7- and 16-segment display (1) and two LEDs (2).

Fig. 16: TDC-M100 status indicators

The LEDs have the following meanings:

LED 1

Note

LED 2

Tab. 9: TDC-M100 status indicators

Manual operation and configuration of the TDC device using the four pushbuttons on the
front of the device is visualized on the two-line display.

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4 Mounting

WARNING

WARNING

Note

MOUNTING 4

The TDC device should be mounted as close as possible to the battery for connection to
the voltage supply or close to the electrical installation for the connection of peripherals.

A SIM card for operation in EU countries and a 3-A fuse are already included in the TDC
devices.

Be sure to closely observe the following notes during mounting:

 Mount the TDC device so that it is protected from dirt and mechanical damage.

 Use a cover plate where possible.

 We recommend installing the device in a connection box with PG connectors to ensure

compliance with protection class IP65.

4.1 Inserting the SIM card (not EU countries or for MQTT operation)

If the TDC device is being operated in an EU country in conjunction with the SICK cloud,
the SIM card inserted at the factory can be used for data transmission.

If the device is being operated in a country outside of the EU, the customer will have to
insert a SIM card from their telecommunications provider.

Note

Only use M2M SIM cards.

Ensure the device is switched off before inserting a SIM card.

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TDC-B100/TDC-B200

1. Loosen and remove the four screws on the bottom of the device.

2. Push the SIM card holder to release the catch and fold it up. Follow the red arrows.

3. Remove the SIM card that was inserted for operation within the EU at the factory and
insert a SIM card from your telecommunications provider into the SIM card holder with
the contacts facing down.

4. Close the fixing plate to hold the SIM card in place in the SIM card holder (follow the
arrows).

5. Fold the SIM card holder down to close it, pushing it down firmly to activate the catch.
Follow the red arrows.

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Note

MOUNTING 4

TDC-M100

1. Remove the plastic cover with the display and navigation buttons.

Be aware of the two spacers between the plastic covers.

2. Open the device by pulling the two sides of the plastic housing out of the plastic
brackets and separating them from one another.

3. Remove the whole PCB.

4. Lift up the SIM card holder a little.

Remove the SIM card that was inserted for operation within the EU at the factory and

insert a SIM card from your telecommunications provider into the SIM card holder with
the contacts facing down.

5. Fold the SIM card holder down to close it, pushing it down firmly to lock it.

6. Insert the PCB back into the housing.

7. Reassemble the two sides of the plastic housing..

8. Insert the spacers and mount the plastic cover with the display.

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4.2 Mounting the TDC-B100/200

Use the mounting holes on the bottom of the device for the mounting process.

Fig. 17: Mounting the TDC-B100 /TDC-B200

Mounting on a plate

Mount the device using four M4 pan-head screws.

▸

4.3 Mounting the TDC-M100

The TDC-M100 device is designed to be mounted in a control cabinet. This device variant
is mounted on a mounting rail. Any mounting orientation will be suitable.

Fig. 18: Mounting the TDC-M100

Mounting on a mounting rail

1. Position the device from above with the bracket on the mounting rail.

2. At the same time, push on the front of the device in the direction of the mounting rail
until you hear the device click into place.